@@ -16,7 +16,7 @@ Below are some useful material choices. Not all information is provided, but can
## Absorber materials
* G4_Pb: lead, a high-density and high-Z material that is commonly used as an absorber for electromagnetic calorimeters. It has a density of 11.35 g/cm3 and a radiation length of 0.56 cm. Cost: 0.03 CHF/cm3.
* G4_Fe: iron, a medium-density and medium-Z material that is often used as an absorber for hadronic calorimeters. It has a density of 7.87 g/cm3 and an interaction length of 16.77 cm. Cost: 0.005 CHF/cm3.
* G4_Fe: iron, a medium-density and medium-Z material that is often used as an absorber for hadronic calorimeters. It has a density of 7.87 g/cm3, an interaction length of 16.77 cm and a radiation length of 1.76cm. Cost: 0.005 CHF/cm3.
* G4_W: tungsten, a very high-density and very high-Z material that is suitable for compact and high-resolution electromagnetic calorimeters. It has a density of 19.3 g/cm3 and a radiation length of 0.35 cm. 0.6 CHF/cm3.
* G4_Cu: copper, a high-density and high-Z material that is also used as an absorber for electromagnetic calorimeters. It has a density of 8.96 g/cm3 and a radiation length of 1.43 cm. 0.08 CHF/cm3
* G4_BRASS: It has a density of 8.53 g/cm3 and a composition of 70% copper and 30% zinc by mass. It has a radiation length of 1.46 cm and an interaction length of 16.95 cm. Cost: 0.02 CHF/cm3
